CN211977320U - Full-automatic quantitative block-shaped ice making mechanism - Google Patents

Abstract

The utility model relates to a cubic system ice technical field of ration discloses a cubic system ice mechanism of full-automatic ration, include: the ice making device comprises an ice making device, a slide way, a weighing mechanism and a mounting base; the ice making device is arranged on the mounting base, and the weighing mechanism is arranged on the mounting base; an ice outlet is formed in the body of the ice making device, one end of the slide way is connected with the ice outlet, and the other end of the slide way is connected with the weighing mechanism. The ice making machine solves the technical problems that the ice making of the ice making machine in the prior art depends on observation of people, and the ice making quantity and the ice making time need to be judged through multiple times of observation.

Description

Full-automatic quantitative block-shaped ice making mechanism

Technical Field

The utility model relates to a cubic system ice technical field of ration, more specifically say, it relates to a cubic system ice mechanism of full-automatic ration.

Background

The demand of the ice cubes for the beverage making and the like on the market is increasing, the ice maker becomes a part which cannot be lacked in the necessary equipment of the current beverage making distributor, the ice making of the ice maker in the prior art depends on people to observe, and the ice making amount and the ice making time need to be judged through multiple times of observation.

SUMMERY OF THE UTILITY MODEL

In view of the above, it is an object of the present invention to provide a fully automatic quantitative block ice making mechanism having the advantage of supporting ice metering.

The above object of the present invention can be achieved by the following technical solutions:

a full-automatic quantitative block-shaped ice making mechanism comprises an ice making device, a slide way and a weighing mechanism;

an ice outlet is formed in the body of the ice making device, one end of the slide way is connected with the ice outlet, and the other end of the slide way is connected with the weighing mechanism.

Furthermore, the ice making mechanism further comprises a mounting base, the ice making device is mounted on the mounting base, and the weighing mechanism is mounted on the mounting base.

Furthermore, the ice making device specifically comprises an ice making chamber, an ice bucket, a water inlet mechanism and a water tank;

the ice making chamber is arranged on the mounting base, and the ice bucket is arranged on the top surface of the ice making chamber;

the water inlet mechanism and the water tank are connected through a pipeline, and the water tank and the ice making chamber are connected through a pipeline.

Furthermore, a control switch is arranged on the ice outlet and used for automatically opening and closing the ice outlet.

Further, an ice full sensor is mounted at the top of the ice bucket.

Further, the slide way further comprises an ice outlet slide way, an ice slide way and an ice falling part;

one end of the ice outlet slideway is butted with the ice outlet;

the ice slideway is a closed cylindrical rail, one end of the ice slideway is provided with an ice inlet, and the ice outlet slideway extends into the ice inlet;

the other end of the ice slideway is connected with the ice falling part;

the ice falling part is fixed on the mounting base and is positioned right above the weighing mechanism.

Further, the weighing mechanism further comprises an ice containing body and a pressure sensor;

the pressure sensor is arranged at the bottom of the weighing mechanism.

Further, the ice making device further comprises a driver and a transmission mechanism;

the transmission mechanism is installed on the installation base, one end of the transmission mechanism is connected with the driver, and the other end of the transmission mechanism is connected with the stirring and extruding device in the ice making chamber.

Further, a refrigerating enzyme inlet and a refrigerating enzyme outlet are arranged on the ice making chamber;

the refrigerating enzyme inlet and the refrigerating enzyme outlet are arranged on the ice making chamber body, and the refrigerating enzyme outlet is positioned above the refrigerating enzyme inlet.

Compared with the prior art, the beneficial effects of the utility model are that:

through setting up a weighing mechanism, install pressure sensor on weighing mechanism, solved the ice machine among the prior art and relied on people to observe at present, need judge the technical problem of the volume of ice and the time of ice through observation many times.

Drawings

Fig. 1 is a schematic view of the overall structure of a fully automatic quantitative block-shaped ice making mechanism of the present invention;

FIG. 2 is a rear view of the fully automatic quantitative block ice making mechanism of the present invention;

FIG. 3 is a right side view of the fully automatic quantitative block ice making mechanism of the present invention;

FIG. 4 is a front view of the fully automatic quantitative block ice making mechanism of the present invention;

FIG. 5 is an enlarged view of an ice outlet of the fully automatic quantitative block-shaped ice making mechanism of the present invention;

reference numerals: 1. an ice making chamber; 111. a refrigeration enzyme inlet; 112. a refrigerating enzyme outlet; 2. an ice bucket; 3. a weighing mechanism; 5. mounting a base; 6. a water inlet mechanism; 7. a water tank; 8. an ice outlet; 81. a valve; 82. an electromagnetic valve body; 83. an ice outlet chute; 9. an ice full sensor; 10. an ice chute; 11. an ice falling funnel; 12. an ice stirring motor; 13. an ice making control electric box; 14. and a transmission mechanism.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings and examples.

Example one

The embodiment provides a full-automatic quantitative block-shaped ice making mechanism which is characterized by comprising an ice making device, a slide way, a weighing mechanism 3 and a mounting base 5;

the ice making device is used for making the purified water into blocky ice;

the weighing mechanism 3 is used for carrying out ice metering on the blocky ice;

the ice making device is arranged on the mounting base 5, and the weighing mechanism 3 is arranged on the mounting base 5;

an ice outlet 8 is formed in the body of the ice making device, one end of the slide way is connected with the ice outlet 8, and the other end of the slide way is connected with the weighing mechanism 3.

Further, the ice making device specifically comprises an ice making chamber 1, an ice bucket 2, a water inlet mechanism 6 and a water tank 7;

the ice bucket 2 is used for storing ice blocks made by the ice making chamber 1;

the water tank 7 is used for temporarily storing the purified water required by the ice making of the ice making chamber 1, and the water tank 7 is connected with the water inlet mechanism 6 and the ice making chamber 1 through a pipeline.

The ice making chamber 1 is mounted on the mounting base 5, and the ice bucket 2 is mounted on the top surface of the ice making chamber 1;

the water inlet mechanism 6 and the water tank 7 are connected by a pipe, and the water tank 7 and the ice making chamber 1 are connected by a pipe.

Further, set up control switch on ice outlet 8, control switch is used for automatic opening and closing, and control switch comprises valve 81 in this embodiment, solenoid valve body 82, still is provided with ice outlet slide 83 under the valve 81 valve.

The valve 81 is arranged on the cylinder body of the ice bucket 2, and the electromagnetic valve body 82 is arranged on the surface of the valve 81;

the ice outlet chute 83 is mounted on the barrel of the ice bucket 2 and is located right below the valve 81.

The valve 81 and the solenoid valve 82 cooperate to control the ice outlet 8 to be closed, and when the ice outlet 8 is opened, the blocky ice stored in the ice bucket 2 slides out of the ice outlet slide 83.

Further, an ice full sensor 9 is installed at the top of the ice bucket 2, and when the ice in the ice bucket 2 is full, the ice full sensor 9 is automatically triggered to stop making ice.

Further, the chute further comprises an ice outlet chute 83 located right below the valve 81, an ice chute 10 and an ice falling portion, wherein the ice falling portion is an ice falling funnel 11 in this embodiment;

one end of the ice outlet chute 83 is butted with the ice outlet 8;

the ice slideway 10 is a closed cylindrical rail, one end of the ice slideway 10 is provided with an ice inlet, and the ice outlet slideway 83 extends into the ice inlet;

the other end of the ice slideway 10 is connected with the ice falling funnel 11;

the ice falling funnel 11 is fixed on the mounting base 5, and the ice falling funnel 11 is positioned right above the weighing mechanism 3.

Further, the weighing mechanism 3 further includes an ice container and a pressure sensor for measuring the weight of the ice cubes;

the pressure sensor is arranged at the bottom of the weighing mechanism 3.

Further, the ice making device further comprises a driver, the driver selected in this embodiment is an ice stirring motor 12, and the ice stirring motor 12 is connected with the ice making chamber 1 through a transmission mechanism 14;

the transmission mechanism 14 is mounted on the mounting base 5, one end of the transmission mechanism 14 is connected to the ice stirring motor 12, and the other end of the transmission mechanism 14 is connected to the ice making barrel 2, and the ice stirring motor 12 is used for stirring ice in the ice making barrel 2, preventing the blocky ice from caking in the ice making barrel 2, and extruding the made blocky ice into the ice making barrel 2.

Further, a refrigerating enzyme inlet 111 and a refrigerating enzyme outlet 112 are arranged on the ice making chamber 1;

the refrigerating enzyme inlet 111 is used for inputting refrigerating enzyme into the ice making chamber 1;

the refrigerating enzyme outlet 112 for discharging the remaining refrigerating enzyme from the ice making compartment 1.

The refrigerating enzyme inlet 111 and the refrigerating enzyme outlet 112 are installed on the ice making chamber 1 body, and the refrigerating enzyme outlet 112 is located above the refrigerating enzyme inlet 111.

Further, an ice making control electric box 13 is included for controlling the ice making mechanism to perform ice making operation.

The utility model discloses a working process is:

when the ice making mechanism is in the business state, open the switch of mechanism 6 of intaking, through installing the inside pipeline in mounting base 5, use a suction pump to take out the pure water to water tank 7, water tank 7 links to each other with ice making room 1 through a pipeline, and based on the communicating vessel principle, the pure water in the water tank 7 can automatic flow to in the ice making room 1.

The ice making enzyme is added into the ice making chamber through the ice making enzyme inlet 111, and the ice making chamber 1 starts to make block ice through the ice making control electric box 13.

After the preparation of the blocky ice is finished, the prepared blocky ice is extruded into the ice bucket 2 through the ice stirring motor 12, and the ice blocks in the ice bucket 2 are stirred through the ice stirring motor 12, so that the blocky ice is placed to be caked in the ice bucket 2.

The valve 81 of the ice outlet 8 is opened to perform ice outlet operation, and the blocky ice slides down to the ice chute 10 through the ice outlet chute 83, further passes through the ice falling funnel 11 at the bottom of the ice chute 10, and finally falls into the weighing mechanism 3.

And weighing the currently discharged blocky ice by using a pressure sensor on the weighing mechanism 3.

It is above only the utility model discloses a preferred embodiment, the utility model discloses a scope of protection does not only confine above-mentioned embodiment, the all belongs to the utility model discloses a technical scheme under the thinking all belongs to the utility model discloses a scope of protection. It should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (9)

1. A full-automatic quantitative block-shaped ice making mechanism is characterized by comprising an ice making device, a slideway and a weighing mechanism;

an ice outlet is formed in the body of the ice making device, one end of the slide way is connected with the ice outlet, and the other end of the slide way is connected with the weighing mechanism.

2. The fully automatic quantitative block ice making mechanism according to claim 1, further comprising a mounting base on which the ice making device is mounted, the weighing mechanism being mounted on the mounting base.

3. The full-automatic quantitative block-shaped ice making mechanism according to claim 2, wherein the ice making device specifically comprises an ice making chamber, an ice bucket, a water inlet mechanism and a water tank;

the ice making chamber is arranged on the mounting base, and the ice bucket is arranged on the top surface of the ice making chamber;

the water inlet mechanism and the water tank are connected through a pipeline, and the water tank and the ice making chamber are connected through a pipeline.

4. The mechanism of claim 1, wherein a control switch is provided on the ice outlet for automatically opening and closing the ice outlet.

5. A fully automatic quantitative block ice making mechanism as claimed in claim 3, wherein the top of the ice bucket is fitted with an ice full sensor.

6. The fully automatic metered block ice making mechanism of claim 2, wherein said chute further comprises an ice outlet chute, an ice chute and an ice drop section;

one end of the ice outlet slideway is butted with the ice outlet;

the ice slideway is a closed cylindrical rail, one end of the ice slideway is provided with an ice inlet, and the ice outlet slideway extends into the ice inlet;

the other end of the ice slideway is connected with the ice falling part;

the ice falling part is fixed on the mounting base and is positioned right above the weighing mechanism.

7. The fully automatic quantitative block ice making mechanism according to claim 1, wherein said weighing mechanism further comprises an ice containing body and a pressure sensor;

the pressure sensor is arranged at the bottom of the weighing mechanism.

8. The fully automatic quantitative block ice making mechanism according to claim 3, wherein said ice making device further comprises a driver and a transmission mechanism;

the transmission mechanism is installed on the installation base, one end of the transmission mechanism is connected with the driver, and the other end of the transmission mechanism is connected with the stirring and extruding device in the ice making chamber.

9. The fully automatic quantitative block-shaped ice making mechanism according to claim 3, wherein the ice making chamber is provided with a refrigerating enzyme inlet and a refrigerating enzyme outlet;

the refrigerating enzyme inlet and the refrigerating enzyme outlet are arranged on the ice making chamber body, and the refrigerating enzyme outlet is positioned above the refrigerating enzyme inlet.

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